论文信息 - Design and Control Strategy Optimization for Four-wheel Independently Actuated Electric Vehicles

Design and Control Strategy Optimization for Four-wheel Independently Actuated Electric Vehicles

Abstract This paper presents a methodology to realize design optimization for a four-wheel independently actuated electric vehicle. The optimization objectives are to minimize the equivalent fuel consumption while prolonging the driving range. The principal powertrain parameters are set as the optimization variables, with the driving performance requirements formulated as the constraint conditions. An adaptive torque distribution strategy is adopted to appropriate the torque demands to each in-wheel motor to make use of the high-efficiency working zone as more as possible. The Particle Swarm Optimization (PSO) method is then used to search for the optimal design. Simulation results show that the power consumption per hundred kilometers and the driving range can be effectively improved by 2% and 6%, respectively.

Zhang Lei | Wang Zhenpo | Xue Xue | Qu Changhui

[1] Rongrong Wang,et al. Actuator-Redundancy-Based Fault Diagnosis for Four-Wheel Independently Actuated Electric Vehicles , 2014, IEEE Transactions on Intelligent Transportation Systems.

[2] Chao Yang,et al. Hybrid genetic algorithm-based optimization of powertrain and control parameters of plug-in hybrid electric bus , 2015, J. Frankl. Inst..

[3] François Maréchal,et al. Techno-economic design of hybrid electric vehicles using multi objective optimization techniques , 2015 .

[4] David G. Dorrell,et al. Genetic Algorithm based optimal component sizing for an electric vehicle , 2013, IECON 2013 - 39th Annual Conference of the IEEE Industrial Electronics Society.

[5] Cao Binggang,et al. Driving and control of torque for direct-wheel-driven electric vehicle with motors in serial , 2011 .

[6] Wei Liu,et al. Vehicle state estimation based on Minimum Model Error criterion combining with Extended Kalman Filter , 2016, J. Frankl. Inst..